US10052425B2ActiveUtilityA1

Reservoir status lights indicating status of corresponding reservoirs for extracorporeal blood treatment apparatus

68
Assignee: GAMBRO LUNDIA ABPriority: Mar 15, 2013Filed: Mar 14, 2014Granted: Aug 21, 2018
Est. expiryMar 15, 2033(~6.7 yrs left)· nominal 20-yr term from priority
Inventors:John O'Mahony
G01G 19/14A61M 1/34G01G 17/04A61M 1/14G01F 23/20A61M 1/1643A61M 1/367G01G 23/32A61M 2205/50A61M 2205/3306A61M 2205/3393
68
PatentIndex Score
2
Cited by
38
References
25
Claims

Abstract

Extracorporeal blood treatment apparatus with reservoir status lights and methods of monitoring reservoir status using the same are described. The extracorporeal blood treatment apparatus include a plurality of reservoir scales ( 30 ), each of which is configured to weigh a reservoir ( 32 ) used in connection with the extracorporeal blood treatment apparatus. A plurality of reservoir status lights ( 40 ) are provided, with one or more of the reservoir status lights ( 40 ) associated with one of the reservoir scales ( 30 ). The one or more reservoir status lights ( 40 ) associated with one of the reservoir scales ( 30 ) emit light from a location that is closer to their associated reservoir scale than to any other reservoir scale of the extracorporeal blood treatment apparatus.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
       1. An extracorporeal blood treatment apparatus comprising:
 a housing comprising a front face and a bottom end; 
 one or more pumps located on or in the housing, wherein the one or more pumps are configured to move blood and a treatment solution during extracorporeal blood treatment, wherein the one or more pumps are located above the bottom end of the housing; 
 a plurality of reservoir scales positioned proximate the bottom end of the housing, wherein each reservoir scale of the plurality of reservoir scales is configured to weigh a reservoir operably attached to the reservoir scale, wherein the reservoir is positioned below the bottom end of the housing, and wherein the plurality of reservoir scales comprises at least a first reservoir scale and a second reservoir scale; 
 a plurality of reservoir status lights, wherein each reservoir status light of the plurality of reservoir status lights is associated with one reservoir scale of the plurality of reservoir scales, and wherein the plurality of reservoir status lights comprises a first reservoir status light associated with the first reservoir scale and a second reservoir status light associated with the second reservoir scale, and further wherein the first reservoir status light emits light from a location that is closer to the first reservoir scale than the second reservoir scale; 
 a control unit operably attached to the one or more pumps, the plurality of reservoir scales, and the plurality of reservoir status lights, wherein the control unit is configured to:
 receive a weight signal from each reservoir scale of the plurality of reservoir scales, wherein the weight signal from each reservoir scale is indicative of a weight of a reservoir operably attached to the reservoir scale; 
 make a determination that a reservoir operably attached to the first reservoir scale has passed a first selected weight limit at least partially based on the weight signal received from the first reservoir scale; 
 change a mode of light emitted by the first reservoir status light after making the determination that the first reservoir scale has passed the first selected weight limit; 
 make a determination that a reservoir operably attached to the second reservoir scale has passed a second selected weight limit at least partially based on the weight signal received from the second reservoir scale; 
 change a mode of light emitted by the second reservoir status light after making the determination that the second reservoir scale has passed the second selected weight limit; 
 make a determination that the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 cause the first reservoir status light to emit light of a first color when the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 make a determination that the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit; 
 cause the second reservoir status light to emit light of a second color when the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit, wherein the first color and the second color are different colors. 
 
 
     
     
       2. An apparatus according to  claim 1 , wherein the first reservoir status light is located on the first reservoir scale and the second reservoir status light is located on the second reservoir scale. 
     
     
       3. An apparatus according to  claim 1 , wherein the first reservoir status light is located on the housing proximate the first reservoir scale and the second reservoir status light is located on the housing proximate the second reservoir scale. 
     
     
       4. An apparatus according to  claim 1 , wherein the first reservoir scale comprises a loading position in which the first reservoir scale is configured to receive a reservoir operably attached to the first reservoir scale, and an operating position in which the first reservoir scale is configured to weigh a reservoir operably attached to the first reservoir scale during operation of the extracorporeal blood treatment apparatus, and wherein the control unit is configured to cause the first reservoir status light to emit light in an operating mode when the first reservoir scale is in the operating position. 
     
     
       5. An apparatus according to  claim 4 , wherein the control unit is configured to cause the first reservoir status light to emit light in a loading mode when the first reservoir scale is not in the operating position. 
     
     
       6. An apparatus according to  claim 1 , wherein the apparatus comprises a first passive color indicator on the housing and/or the first reservoir scale, wherein the first passive color indicator matches the first color emitted by the first reservoir status light when the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit, and wherein the apparatus comprises a second passive color indicator on the second reservoir scale, wherein the second passive color indicator matches the second color emitted by the second reservoir status light when the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit. 
     
     
       7. An apparatus according to  claim 1 , wherein changing the mode of light emitted by the first reservoir status light after making the determination that the first reservoir scale has passed the first selected weight limit comprises causing the first reservoir status light to vary the intensity of light emitted by the first reservoir status light. 
     
     
       8. An apparatus according to  claim 1 , wherein changing the mode of light emitted by the first reservoir status light after making the determination that the first reservoir scale has passed the first selected weight limit comprises causing the first reservoir status light to change the color of light emitted by the first reservoir status light. 
     
     
       9. An apparatus according to  claim 1 , wherein changing the mode of light emitted by the second reservoir status light after making the determination that the second reservoir scale has passed the second selected weight limit comprises causing the second reservoir status light to vary the intensity of light emitted by the second reservoir status light. 
     
     
       10. An apparatus according to  claim 1 , wherein changing the mode of light emitted by the second reservoir status light after making the determination that the second reservoir scale has passed the second selected weight limit comprises causing the second reservoir status light to change the color of light emitted by the second reservoir status light. 
     
     
       11. An apparatus according to  claim 1 , wherein the apparatus comprises a display screen operably connected to the control unit and an ambient light sensor operably connected to the control unit, and wherein the control unit is configured to reduce the intensity of light emitted from the display screen when ambient light detected by the ambient light sensor is below a selected ambient light threshold. 
     
     
       12. A method of monitoring reservoir status in an extracorporeal blood treatment apparatus that comprises one or more pumps located on or in a housing that are configured to move blood and a treatment solution during extracorporeal blood treatment, a first reservoir scale and a second reservoir scale positioned proximate a bottom end of the housing, and a first reservoir status light associated with the first reservoir scale and a second reservoir status light associated with the second reservoir scale, the method comprising:
 receiving a weight signal from the first reservoir scale, wherein the weight signal from the first reservoir scale is indicative of a weight of a reservoir operably attached to the first reservoir scale; 
 determining that a reservoir operably attached to the first reservoir scale has passed a first selected weight limit at least partially based on the weight signal received from the first reservoir scale; 
 changing a mode of light emitted by the first reservoir status light after determining that the first reservoir scale has passed the first selected weight limit, wherein the first reservoir status light emits light from a location that is closer to the first reservoir scale than the second reservoir scale; 
 determining that a reservoir operably attached to the second reservoir scale has passed a second selected weight limit at least partially based on the weight signal received from the second reservoir scale; and 
 changing a mode of light emitted by the second reservoir status light after determining that the second reservoir scale has passed the second selected weight limit; 
 determining that the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 emitting light of a first color from the first reservoir status light of a first color when the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 determining that the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit; and 
 emitting light of a second color from the second reservoir status light when the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit, wherein the first color and the second color are different colors. 
 
     
     
       13. A method according to  claim 12 , wherein the first reservoir scale comprises a loading position in which the first reservoir scale is configured to receive a reservoir operably attached to the first reservoir scale, and an operating position in which the first reservoir scale is configured to weigh a reservoir operably attached to the first reservoir scale during operation of the extracorporeal blood treatment apparatus, and wherein the method further comprises:
 emitting light from the first reservoir status light in a loading mode when the first reservoir scale is not in the operating position; and 
 emitting light from the first reservoir status light in an operating mode when the first reservoir scale is in the operating position, wherein the light emitted from the first reservoir status light in the loading mode differs from the light emitted from the first reservoir status light in the operating mode. 
 
     
     
       14. A method according to  claim 12 , wherein the first reservoir status light is located on the first reservoir scale and the second reservoir status light is located on the second reservoir scale. 
     
     
       15. A method according to  claim 12 , wherein the first reservoir status light is located on the housing proximate the first reservoir scale and the second reservoir status light is located on the housing proximate the second reservoir scale. 
     
     
       16. A method according to  claim 12 , wherein the apparatus comprises a first passive color indicator on the housing and/or the first reservoir scale and a second passive color indicator on the housing and/or the second reservoir scale;
 wherein the light of the first color emitted by the first reservoir status light matches the first passive color indicator when the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 and wherein the light of the second color emitted by the second reservoir status light matches the second passive color indicator when the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit. 
 
     
     
       17. A method according to  claim 12 , wherein changing the mode of light emitted by the first reservoir status light after determining that the first reservoir scale has passed the first selected weight limit comprises varying the intensity of light emitted by the first reservoir status light. 
     
     
       18. A method according to  claim 12 , wherein changing the mode of light emitted by the first reservoir status light after determining that the first reservoir scale has passed the first selected weight limit comprises changing the color of light emitted by the first reservoir status light. 
     
     
       19. A method according to  claim 12 , wherein changing the mode of light emitted by the second reservoir status light after determining that the second reservoir scale has passed the second selected weight limit comprises varying the intensity of light emitted by the second reservoir status light. 
     
     
       20. A method according to  claim 12 , wherein changing the mode of light emitted by the second reservoir status light after determining that the second reservoir scale has passed the second selected weight limit comprises changing the color of light emitted by the second reservoir status light. 
     
     
       21. A method according to  claim 12 , wherein the apparatus comprises a display screen and an ambient light sensor, and wherein the method further comprises reducing the intensity of light emitted from the display screen when ambient light detected by the ambient light sensor is below a selected ambient light threshold. 
     
     
       22. An extracorporeal blood treatment apparatus comprising:
 a housing comprising a front face and a bottom end; 
 one or more pumps located on or in the housing, wherein the one or more pumps are configured to move blood and a treatment solution during extracorporeal blood treatment, wherein the one or more pumps are located above the bottom end of the housing; 
 a plurality of reservoir scales positioned proximate the bottom end of the housing, wherein each reservoir scale of the plurality of reservoir scales is configured to weigh a reservoir operably attached to the reservoir scale, wherein the reservoir is positioned below the bottom end of the housing, and wherein the plurality of reservoir scales comprises at least a first reservoir scale and a second reservoir scale; 
 a plurality of reservoir status lights, wherein each reservoir status light of the plurality of reservoir status lights is associated with one reservoir scale of the plurality of reservoir scales, and wherein the plurality of reservoir status lights comprises a first reservoir status light associated with the first reservoir scale and a second reservoir status light associated with the second reservoir scale, and further wherein the first reservoir status light emits light from a location that is closer to the first reservoir scale than the second reservoir scale, wherein the first reservoir status light is located on the housing proximate the first reservoir scale and the second reservoir status light is located on the housing proximate the second reservoir scale; 
 a control unit operably attached to the one or more pumps, the plurality of reservoir scales, and the plurality of reservoir status lights, wherein the control unit is configured to:
 receive a weight signal from each reservoir scale of the plurality of reservoir scales, wherein the weight signal from each reservoir scale is indicative of a weight of a reservoir operably attached to the reservoir scale; 
 make a determination that a reservoir operably attached to the first reservoir scale has passed a first selected weight limit at least partially based on the weight signal received from the first reservoir scale; 
 change a mode of light emitted by the first reservoir status light after making the determination that the first reservoir scale has passed the first selected weight limit; 
 make a determination that the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 cause the first reservoir status light to emit light of a first color when the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 make a determination that the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit; and 
 cause the second reservoir status light to emit light of a second color when the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit, wherein the first color and the second color are different colors; 
 make a determination that the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit; 
 cause the second reservoir status light to emit light of a second color when the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit, wherein the first color and the second color are different colors; 
 
 a first passive color indicator on the housing and/or the first reservoir scale, wherein the first passive color indicator matches the first color emitted by the first reservoir status light when the weight of liquid in the reservoir operably attached to the first reservoir scale has not passed the first selected weight limit; 
 a second passive color indicator on the housing and/or the second reservoir scale, wherein the second passive color indicator matches the second color emitted by the second reservoir status light when the weight of liquid in the reservoir operably attached to the second reservoir scale has not passed the second selected weight limit. 
 
     
     
       23. An apparatus according to  claim 22 , wherein the first reservoir scale comprises a loading position in which the first reservoir scale is configured to receive a reservoir operably attached to the first reservoir scale, and an operating position in which the first reservoir scale is configured to weigh a reservoir operably attached to the first reservoir scale during operation of the extracorporeal blood treatment apparatus, and wherein the control unit is configured to:
 cause the first reservoir status light to emit light in an operating mode when the first reservoir scale is in the operating position, and 
 cause the first reservoir status light to emit light in a loading mode when the first reservoir scale is not in the operating position, wherein the operating mode and the loading mode are different. 
 
     
     
       24. An apparatus according to  claim 22 , wherein the first color is indicative of liquid in the reservoir operably attached to the first reservoir scale and the second color is indicative of liquid in the reservoir operably attached to the second reservoir scale. 
     
     
       25. A method according to  claim 12 , wherein the first color is indicative of liquid in the reservoir operably attached to the first reservoir scale and the second color is indicative of liquid in the reservoir operably attached to the second reservoir scale.

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